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HP 8340b Operating Instructions

HP 8340b
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Referring
to
Figure
3-29,
it
is
seen
that
when
externally
leveled,
the
POWER
dBm
display
is
still
connected
to
the
internal
detector
of
the
HP
8340B/41B.
Thus,
it
always
tells
the
true
output
power,
reqardless
of
external
leveling
setup.
This
is
a
useful
aid
to
determining
if
the
external
hardware
is
functioning
properly.
In
the
above
example,
if
the
POWER
dBm
display
shows
-40
dBm
when
the
amplifier
ouput
is
leveled
to
ā€”10
dBm,
the
user
knows
the
gain
is
30
dB.
As
explained
in
the
internal
leveling
section
above,
the
POWER
dBm
display
is
only
accurate
down
to
ALC
levels
of
about
-22
dBm
below
which
it
is
intentionally
blanked,
therefore,
that
display
is
only
useful
if
the
ALC
level
is
forced
to
be
greater
than
-22
dBm.
This
is
done
by
inserting
step
attenuation
until
the
display
lights
up
again.
As
still
more
attenuation
is
added,
the
POWER
dBm
reading
remains
essentially
constant
as
the
external
leveling
loop
holds
the
output
level
constant.
With
each
additional
10
dB
step
of
attenuaĀ¬
tion,
the
ALC
level
jumps
10
dB,
until
finally
maximum
available
ALC
level
is
reached
and
the
UNLEVELED
annunciator
lights.
For
best
display
accuracy
and
minimum
noise,
the
ALC
level
should
be
greater
than
-10
dBm.
This
is
achieved
by
using
attenuation
equal
to
the
tens
digit
of
output
power.
Example:
output
power
=
ā€”43
dBm;
use
ATTN.
=
ā€”40
dB,
ALC
=
ā€”
3
dBm.
When
sweeping
while
externally
leveled,
the
output
power
changes
with
frequency
in
order
to
level
at
a
distant
point.
The
POWER
dBm
display
tries
to
follow
this
change.
Due
to
its
heavy
filtering,
at
fast
sweep
speeds
the
meter
displays
an
average
power
level.
When
using
mixers,
or
in
other
situations
where
reverse
power
may
be
encountered,
caution
is
necessary.
See
the
decoupled
mode
and
unleveled
mode
sections
above.
Reverse
power
into
the
HP
8340B/41B
when
externally
leveled
makes
the
POWER
dBm
display
read
incorrectly;
unwanted
RF
energy
entering
the
external
detector
causes
the
loop
to
level
at
the
wrong
power
level.
Bandwidth
When
externally
leveled,
the
leveling
loop
bandwith
differs
from
what
it
is
when
internally
leveled.
If
AM
is
on
or
when
sweeping
with
sweep
time
<5
seconds,
the
nominal
loop
bandwidth
is:
Internal:
150
kHz
External,
crystal:
80
kHz
with
square
law
detector,
40
kHz
with
linear
detector.
External,
power
meter:
0.7
Hz
The
significance
of
loop
bandwidth
is
that
it
generally
equals
AM
bandwith
and
influences
the
fastest
useable
sweep
speed.
The
best
way
to
set
sweep
time
is
to
increase
it
until
measured
flatness
no
lonqer
changes.
For
the
sake
of
understanding
ā€”
observe
a
plot
of
unleveled
flatness
across
the
band
of
interest.
The
number
of
ripples
divided
by
sweep
time
gives
the
number
of
ā€œripples
per
secondā€™ā€™
which
the
leveling
loop
must
remove.
The
loop
bandwidth
must
be
several
times
this
number
in
order
to
do
so.
From
the
above
it
is
apparent
that
the
useable
sweep
time
will
depend
on
frequency
ranqe
and
RF
hardware
in
use.
When
using
long
cables
there
will
be
many
ripples,
and
their
amplitude
is
dependent
on
the
match
at
each
end
of
the
cable.
Inserting
10
dB
of
step
attenuation
greatly
improves
the
source
match
when
externally
leveled,
thereby
reducing
the
ripple
amplitude.
For
best
stability
of
the
leveling
loop,
the
video
bandwidth
of
the
external
detector
should
be
100
kHz
or
more
when
XTAL
leveling
is
selected.
The
capacity
of
coaxial
cables
reduces
the
video
bandwidth
of
crystal
detectors.
A
typical
point-contact
detector
(HP
420
series
423A,
8470A),
w
'L
w
t
7
W
n
J
4
feet
of
500
coax
on
its
output.
Typical
HP
low
barrier
schottky
detectors
(HP
423B,
8470B,
3330
series)
will
drive
up
to
40
feet
of
50
O
cable.
The
above
paragraph
applies
to
square
law
detectors
with
no
dc
offset
(Vout
=
0
for
Pin
-
0).
In
METER
mode,
the
external
leveling
bandwidth
is
reduced
to
0.7
Hz
in
order
to
allow
operation
with
power
meters.
Power
meters
have
a
very
slow
response
due
to
thermal
delay
time
and
heavy
elecĀ¬
trical
filtering.
The
0.7
Hz
bandwidth
assures
proper
operation
with
any
HP
power
meter
on
any
range.
When
turning
on
the
RF
power,
either
when
unblanking
or
using
the
RF
key,
the
slow
response
of
the
power
meter
can
cause
serious
power
overshoot
in
some
external
leveling
systems.
This
overshoot
may
damage
active
devices
or
some
power
sensors.
To
prevent
this
problem
in
the
HP
8340B/41B,
a
slow
turn
on
circuit
is
employed
when
METER
leveling
is
selected.
This
circuit
raises
the
power
slowly
over
a
period
of
2
seconds.
The
sweep
generator
automatically
waits
for
this
settling
time
to
end
before
beginning
a
sweep.
HP
8340B/41B
Operating
Information
3-107

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HP 8340b Specifications

General IconGeneral
BrandHP
Model8340b
CategoryInverter
LanguageEnglish

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